Failure of Right Ventricular Adaptation in Children With Tetralogy of Fallot

Abstract: Background-The left ventricle (LV) adapts to chronic hypoxia by expressing protective angiogenic, metabolic, and antioxidant genes to improve O 2 delivery and energy production, and to minimize reoxygenation injury. The ability of the right ventricle (RV) to adapt to hypoxia in children with tetralogy of Fallot (TOF) is unknown. Methods and Results-Gene expression using real-time polymerase chain reaction was measured in RV myocardium obtained during surgical repair of TOF from 23 patients: 13 cyanotic and 10 … Show more

“…The survival of TOF patients is dependent on many adaptive mechanisms to improve O 2 delivery and energy production along with mechanisms that minimize reoxygenation injury [5][6][7]. Under hypoxic conditions, because of the insufficient O 2 supply, the production of ATP by each mitochondrion is decreased.…”

“…TOF patients suffer from systemic chronic hypoxia and sustained pressure overload of the right ventricle. Survival is dependent on many adaptive mechanisms, including altered expression of protective angiogenic, metabolic and antioxidant genes in the myocardium, which improve O 2 delivery and energy production and minimize reoxygenation injury [5][6][7]. TOF patients usually undergo surgery at a young age to repair their malfunctions; however, delayed treatment of TOF is associated with maladaptive changes that result in decreased myocardial performance [6,8].…”

Hypoxia induces PGC-1α expression and mitochondrial biogenesis in the myocardium of TOF patients

“…The survival of TOF patients is dependent on many adaptive mechanisms to improve O 2 delivery and energy production along with mechanisms that minimize reoxygenation injury [5][6][7]. Under hypoxic conditions, because of the insufficient O 2 supply, the production of ATP by each mitochondrion is decreased.…”

“…TOF patients suffer from systemic chronic hypoxia and sustained pressure overload of the right ventricle. Survival is dependent on many adaptive mechanisms, including altered expression of protective angiogenic, metabolic and antioxidant genes in the myocardium, which improve O 2 delivery and energy production and minimize reoxygenation injury [5][6][7]. TOF patients usually undergo surgery at a young age to repair their malfunctions; however, delayed treatment of TOF is associated with maladaptive changes that result in decreased myocardial performance [6,8].…”

Hypoxia induces PGC-1α expression and mitochondrial biogenesis in the myocardium of TOF patients

“…This finding has implications for long-term RV function in patients with TOF, and further study may identify therapeutic targets for early intervention. 45 There is no systematic clinical evidence for anticongestive therapy in RV failure in children. One basis for diuretic use comes from a 1972 report in a rhesus model of RV failure in which diuretic agents, including furosemide, relieved the clinical symptoms.…”

Heart Failure in Children

“…17 Moreover, there are data to suggest that the right ventricles and LVs may be different in terms of gene expression, microRNA expression, and adaptation to fibrosis (Figure 1). [58][59][60] Although it is possible that these studies were also underpowered to detect a difference between groups, they clearly raise the question of whether the proven standard treatments for heart failure in those with a systemic LV can be extrapolated to those with a systemic ventricle that is not an LV. Similarly, there are no randomized trials demonstrating clear benefit of β-blockers in this subgroup of pediatric and young adult patients with a systemic ventricle that is not an LV.…”

Update on Pharmacological Heart Failure Therapies in Children